The main focus of this survey is to gather information about juvenile walleye pollock, Gadus chalcogrammus. Juvenile pollock less than 1 year of age are called young-of-the-year, or age-0 juveniles. Age-0 walleye pollock are ecologically important. Many species of birds, mammals and other fish rely on them as a food source. Adult pollock have a high economic value. Pollock is commercially fished and commonly used in fish sticks and fish and chips. This study is interested in learning more about the size of current juvenile pollock populations, where they occur, and how healthy they are.

An age 0 juvenile pollock is shown below an adult pollock.

In order to collect a sample, a trawl net is lowered into the water off of the back of the ship. The deck crew and bridge crew work together to release the right amount of wire and to drive the ship at the right speed in order to lower the net to the desired depth. The net is shaped like a sock, with the opening facing into the water current. In order to keep the mouth of the net from closing as it is pulled through the water, each side is connected to a large metal panel called a “door”. As the doors move through the water, they pull on the sides of the trawl net, keeping it open. When the doors are ready to be put in the water, the fishing officer will instruct the winch operator to “shoot the doors”!

The deck crew bring the trawl net back on deck. One of the metal “doors” can be seen hanging off of the back of the ship.

Sensors help monitor the depth of the upper and lower sides of the net and relay a signal to computers on the bridge, where the data can be monitored.

Sensors on the trawl net relay data to computers on the bridge which show the position of the net in the water.

Once the net is reeled in with a large winch, the catch is placed on a sorting table, in a room just off of the back deck called the fish lab. Here, the science team works to sort the different species of fish, jellyfish, and other kinds of marine animals that were caught.

Crew members stand below a winch and empty the catch from the trawl net into a large bin.

The catch is then sorted on the sorting table in the fish lab.

Juvenile pollock are sorted into their own bin. If it is a small catch, we weigh, count, and measure the length of each one. However, if it is a large catch, we take a smaller sample, called a subsample, from the whole catch. We use the weight, lengths, and count of animals in the subsample to provide an estimate count and average size of the rest of the fish caught at that station, which are only weighed. This information is compiled on a computer system right in the fish lab.

Here I am measuring some fish.

Data from the catch is collected on computers in the fish lab.

The focus of this study is juvenile pollock, but we do catch several other species in the trawl net. The presence of other species can provide information about the habitats where juvenile pollock live. Therefore, data from all species collected are also recorded.

A small sample of juvenile pollock are frozen and saved for further study, once back on land. These fish will be analyzed to determine their lipid, or fat, content and calorie content. This data reveals information about how healthy these fish are and if they are getting enough food to survive through the cold Alaskan winters.

Other agencies within NOAA also conduct scientific surveys in this area. These studies might focus on different species or abiotic (non-living) properties of the Gulf of Alaska marine ecosystem. The data collected by each agency is shared across the larger NOAA organization to help scientists get a comprehensive look at how healthy marine ecosystems are in this area.

Personal Log

As we move from one station to the next, I have been spending time up on the bridge. This gives me a chance to scan the water for sea birds and marine mammals, or to just take in the scenery. Other members of the crew also like to come up to do this same thing. I have really enjoyed having this time every day to share in this activity (one of my favorite past-times) with other people and to learn from them how to identify different species.

Here I am outside of the bridge, posing with some glaciers!

Did You Know?

You can find the exact age of many fish species by looking at a bone in their ears! Fish have a special ear bone, called an otolith. Every year, a new layer will grow around the outside of this bone. As the fish ages, the otolith gets larger and larger. Scientists can find the exact age of the fish by cutting a cross section of this bone and counting the rings made from new layers being added each year.

Out on the east coast waters utilizing my favorite form of Baltimore’s transportation options – its fleet of kayaks!

Introduction

It is hot and sticky here in Baltimore and I am looking forward to breathing in the crisp air in Alaska. I am also looking forward to being out on the water. As a Baltimore resident, I am able to spend time in the beautiful Chesapeake Bay. It is a great place to get out on a kayak and take in nature. I can’t wait to take this experience to the next level on the waters of the Gulf of Alaska. I try to go on at least one big adventure each year, and the Teacher at Sea experience definitely will fulfill this goal for 2017! I am also excited about all of the new things I will learn on this trip and I am looking forward to sharing these with my students. I teach STEM courses to students who attend online school. I have seen how connecting scientific experiences and data with students can spark their interest in STEM fields. I am very excited to have the opportunity to use this experience to engage students in scientific activities and discussions.

Science and Technology Log

This mission will take place on the NOAA Ship Oscar Dyson, which has its home port in Kodiak, Alaska. From Kodiak we will move through the waters surrounding Kodiak Island and eastward into the Gulf of Alaska. The scientific team will be studying populations of walleye pollock and zooplankton in these waters. The mission will be conducted in two parts. I will be aboard for Leg 1 of the mission. Leg 2 will begin shortly after we return to port on September 2nd. The map below show all of the sampling locations that will be visited during this mission. Leg 1 sampling locations are indicated by red dots. At each location, a variety of sampling will take place. From what I have learned about the mission, it looks like we will be using several different trawls to collect samples. We will then use a variety of methods to identify species and collect data once the samples are onboard.

This map shows the sampling locations of Leg 1 (red) and Leg 2 (blue) for the Gulf of Alaska Juvenile Walleye Pollock Survey. Courtesy of NOAA.

The Oscar Dyson is described as “one of the most technologically advanced fisheries survey vessels in the world.” From what I see on the NOAA website, it seems to have an impressive amount of scientific equipment onboard. It has a wet lab, dry lab, computer lab, biology lab and hydrology lab. It also has a wide array of data collection gear and mechanical equipment. I am looking forward to checking out all of this equipment for myself and learning more about how it will be used.

NOAA Ship Oscar Dyson on the chilly waters in Alaska. Courtesy of NOAA.

This study will focus on collecting data on walleye pollock populations. This fish is a member of the cod family and lives primarily in the waters of the northern Pacific Ocean. As juveniles, this species feeds on krill and zooplankton. As they mature, they eat other fish, including juvenile pollock! Many marine species rely on populations of these fish as a food source in the Gulf of Alaska. Humans also like to eat pollock. It is sold as fillets, but is also used in fish fingers and to make imitation crab meat. Pollock fillets are becoming more popular as cod and haddock populations become overfished. Pollock populations have fluctuated over the years, but are not currently overfished. The dotted line in the graph below shows population numbers in the Gulf of Alaska (GOA).

The dotted line on this graph shows the population numbers of walleye pollock in the Gulf of Alaska (GOA). Courtesy of NOAA.

A scientist from the U.S. Fish and Wildlife Service will also be aboard the Oscar Dyson conducting a seabird observation study. She will work mainly from the bridge, keeping track of the different seabird species she sees as we move from one sampling location to the next.

Personal Log

I am excited about my upcoming adventure for many reasons. As an undergrad, I majored in Natural Resource Management. I went on to be a science teacher, but have always been interested in learning about findings from ecological studies. This experience will allow me to get an up close look at the technology and techniques used to conduct this kind of study. I am looking forward to being able to contribute to the team effort and learn new things to bring back to my students. I am also very excited to be aboard a ship off the coast of Alaska. A trip to Alaska has always been on my bucket list and I am looking forward to taking in the scenery and spotting marine mammals and seabirds. I am also hopeful that we will be able to see a partial solar eclipse from the water. I am bringing my sun viewers, just in case!

Science and Technology Log: It’s Getting Fishy!

Alaska pollock are found in the Bering Sea and Gulf of Alaska and are part of the cod family. The dorsal side of the pollock is speckled brown in color with a slight olive green hue and the ventral side is silver. They eat krill, copepods, and small fish – mainly their own offspring. They quickly grow into adults, reaching reproductive age after 3-4 years, and are very fertile, replacing harvested fish in just a few years. Pollock swim in large schools during the day and disperse overnight. They can be found throughout the water column, but young pollock tend to live in the mid-water region while the older fish tend to live near the sea floor.

Science-based monitoring and management play a key role in the sustainability of the Alaska pollock fishery. It is managed by the North Pacific Fishery Management Council based on data provided by the NOAA’s Alaska Fisheries Science Center. The Alaska pollock fishery is the largest, by volume, in the United States and one of the most valuable in the world. Products made from pollock include fish fillet, roe eggs, and imitation crab. The entire industry is valued at over a billion dollars. It is also considered one of the best-managed fisheries in the world. Scientists from the Alaska Fisheries Science Center conduct acoustic trawl surveys to estimate the abundance of Alaska pollock using acoustics and by catching small samples.

While on NOAA Ship Oscar Dyson I had the opportunity to spend time in the fish lab learning how pollock data are collected.. This video is an example of what I experienced.

The main way commercial pollock is caught in the United States is by net. Scientifically trained observers are sent out on U.S. pollock fishing boats and, similar to the NOAA scientists, they collect sample data from each catch and send it back to NOAA. They also observe the fishing practices on the boat and report any regulatory infractions. All the collected data and interactions between the fishing industry and NOAA have been established to make sure the Alaska pollock fishery remains sustainable.

I loved exploring sea creatures a the beach as a kid; Jacques Cousteau.

What is your favorite thing about going to sea on Oscar Dyson?

Getting out of the office; Seeing amazing scientists do their work and getting to participate.

Why is your work (or research) important?

The information we collect plays a very important role in managing fisheries in Alaska, providing economic and food security for many people. We also do tremendous research that benefits the science community and subsequently people world-wide. We are among the leaders in understanding fish and invertebrate abundance and behavior in the world.

When did you know you wanted to pursue a career in science or an ocean career?

I’m still trying to figure out what I want to do if I grow up! Probably between 10 and 13 years old I developed an interest in the ocean.

What part of your job with NOAA (or contracted to NOAA) did you least expect to be doing?

Dealing with bureaucracy.

What are some of the challenges with your job?

Leading a group of scientists is, in some ways, like herding a group of very intelligent cats. They are very focused on their research and have very strong opinions about things that they feel could detract their ability to do the best job possible. This can be a challenge for me at times, but is a great problem to have!

What are some of the rewards with your job?

Being able to facilitate scientists and help them accomplish their goals is very rewarding.

Describe a memorable moment at sea.

Rescuing a family in a life raft that had been missing for 3+ days.

Interview with Meredith Emery

Fisheries Biologist

Official Title

Survey Technician

Normal Job Duties

As Survey Technicians, our primary responsibility is to monitor and maintain fisheries and oceanographic equipment. In addition, we have to run and verify the Scientific Computer System (SCS) is collecting quality data and all the ship’s sensors connected to SCS are working properly. We also are the liaison between scientists and the crew members, and assist the scientists with any part of their research. Survey Technicians have the unique opportunity to participate in all aspects of the fisheries or oceanographic operation start to finish. During the fishing operations: 1. Scientist communicates to the people on the bridge, deck and survey technicians when they are going to fishing. 2. We put the fishing equipment on the net, as the net is casting out. 3. Assist the scientists log net dimension data when the net is in the water. 4. As the net is being recovered, we retrieve all the fishing equipment. 5. We help the deck with emptying the catch on the fish table, when needed. 6. Lastly, which is my favorite part, is when we get to assist the scientists collect biological fish samples in the wet lab. During oceanographic operations we are in charge of deploying and recovering the equipment (Conductivity, Temperature and Depth (CTD)). In addition we verify all the sensors on the CTD are presenting quality real time data. From the CTD we can collect water samples that can be used for several studies, like salinity, dissolved oxygen, chlorophyll, or micro plankton. We are able to see the operations in action, understand the importance of the research through the science perspective and ultimately know the reason the Oscar Dyson is in the middle of the Gulf of Alaska.

What is your current position on Oscar Dyson?

I am one of two Survey Technicians on the Oscar Dyson.

How long have you been working on Oscar Dyson?

I have been working on the Oscar Dyson about 10 months.

Why the ocean? What made you choose a career at sea?

My fascination for the ocean started when I was young playing with the anemones on the rocky intertidal beach. I’ve always enjoyed being at the beach and seeing the organisms there. I became curious of life at sea and really wanted to see the marine wild life in action, especially when the ice first melts and there is a high abundance of phytoplankton and zooplankton that attracts marine mammals, birds and fish to migrate there. Being on the Oscar Dyson, I was able to observe the fluctuation between high abundance of phytoplankton, zooplankton or fish, depending on the area and time of year.

What is your favorite thing about going to sea on Oscar Dyson?

I enjoy seeing the scenery. Like the untouched lands, glaciers, marine wild life; the fishes, mammals or birds. Also I like seeing the endless blue of the ocean, especially calm weather. Really puts the vastness of the ocean in perspective.

When did you know you wanted to pursue a career in science or an ocean career?

The reason I pursued a career in studying the ocean is because I come to realize that people take the ocean for granted and don’t recognize how much we depend on it. I obtained a Bachelor’s of Science degree in Biology emphasis marine. One of my favorite college courses was oceanography. It was the first time for me to see the connection between geology, physics, chemistry and biology in one scenario like in the ocean processes. Each component relies on the other. First the geological features of the ocean floor and land masses influences the physics of the current flow, wave motion, and up-welling. Then the ocean movement determines the mixing and distribution of the water chemistry. Finally the biodiversity, location, and populations of marine organisms rely on the water chemistry, like nutrients or dissolved oxygen.

Personal Log

I really enjoyed learning about the variety of sea creatures in the Gulf of Alaska. Here is a video showing a few of the sea creatures I encountered. Totally amazing!

Oscar Dyson is one of NOAA’s fisheries survey vessels. It was commissioned in 2005 and its home port is Kodiak, Alaska. The ship was named after the Alaskan fisherman Oscar Dyson who was an activist for improving the fishing industry. He passed away in 1995. The purpose of Oscar Dyson is to collect data on marine life and ecosystems primarily in the Bering Sea and Gulf of Alaska. Most of the research has been focused on the management of Alaska pollock, which is the largest fishery by volume in the United States. The ship houses a crew of up to 24, which includes NOAA Corps officers, engineers, deck hands, survey technicians, stewards, and electronic technicians along with up to 15 scientists. They all work together to make daily operations on the Oscar Dyson a success.

The 208 ft. long Oscar Dyson runs on 4 super charged diesel engines. The engines are designed to produce up to 3 megawatts of electricity a day. The alternating current is converted into direct current in order to power the two propulsion motors. Oscar Dyson’s engine room is fully automated and will add or remove diesel generators based on load demand. Oscar Dyson has a cruising speed of 12 knots and a range of 12,000 nautical miles.

I was pleasantly surprised by how spacious my accommodations are on Oscar Dyson. I am in a 4-person room but have only 1 roommate. Her name is Alex Padilla. She is an ocean engineering graduate student from University of New Hampshire interested in studying the acoustics of bubbles. Our room has bunk beds on both sides of the room, a desk, multiple storage lockers, a toilet & shower, and a large wall mounted TV with movies and Direct TV.

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Just down the passageway from my stateroom is a crew lounge where we can gather and watch movies. There is a mess deck (cafeteria) that serves three meals a day and is open 24/7 for soup, salad, and snacks. Oscar Dyson has a variety of labs that I will cover in future blogs. I was fortunate to have 3 days on the ship before our departure and have become somewhat familiar with the layout of the ship.

The Weather Bureau was founded in 1870 and Fish and Fisheries in 1971, making up the first conservation agency for the United States. The National Oceanographic and Atmospheric Administration was started in 1970 as an agency within the department of Commerce. Today NOAA has many branches that focus on weather, climate, ocean & coasts, fisheries, satellites, marine & aviation, etc. You can learn more about the history of NOAA and the various branches by clicking this link: NOAA.gov

I am very excited and grateful to be a 2017 National Oceanic and Atmospheric Administration (NOAA) Teacher at Sea (TAS). The TAS program has existed since 1990 and their mission is to provide real world research experience for kindergarten through college-level teachers. The application process opens in the fall and teachers are notified in the spring if they are selected. This year there are 29 teachers who have either already sailed or, like me, are about to embark. Check out the TAS FAQ’s page to learn more about the program: NOAA TAS Frequently Asked Questions.

Where is Kodiak, Alaska?

Video Above: Google Earth view of where I will be starting my Teacher at Sea cruise.

Kodiak, Alaska is a small fishing village on Kodiak Island. There are two ways to get to the island – by air or by sea. I will be flying to Kodiak from Anchorage and will board the NOAA vessel Oscar Dyson. This is my 3rd time visiting Alaska but my first time at sea. I got engaged in 2014 on top of the Harding Icefield in Kanai Fjords National Park.

Having just arrived home from one of the driest deserts in the world (Atacama, Chile) I am reminded that the desert is my home. I have lived in Phoenix, Arizona, far away from the sea, for the past 25 years. I love the warm sunny heat of the desert but not when it gets over 110 degrees. So I am looking forward to a change in weather and scenery. Alaska is beautiful in the summer with really long days of sunlight. I am hoping to see a whole new view of this rugged wild state during my three seeks at sea. I just hope I don’t get sea sick!

Science and Technology Log

I have three objectives for my TAS adventure. They are:

To be able to describe how and why we research pollock.

To be able to describe life at sea on a NOAA ship and the careers associated with the NOAA Corps.

To be able to describe navigation techniques and how they have changed over time.

My ultimate goal is be able to bring this information back to the classroom. I have always been fascinated with navigation. Reading maps is an important part of being a geologist and I wonder how similar or different it will be at sea. As a geology student I leaned how to map the contact between two rocks. So I am really curious to learn how you chase fish in the sea. Please feel free to leave a comment below if you have any questions or want me to investigate something while at sea.

Personal Log

When you apply to the TAS program they ask you which type of research cruise (hydrographic, oceanographic, or fisheries) you would prefer. I checked both hydrographic or oceanographic because of my geology background. I teach about weather, climate change, and have always been curious about how we map the ocean. So I am a little nervous about being on a fisheries cruise for 3 weeks. But I am also excited about the opportunity to learn and explore something completely outside my norm. My family finds this amusing because as a kid all I did was fish.

Me fishing around 9 years old.

Here is a photo of me fishing at age 9. During the summer time, while living in New Hampshire, I use to fish everyday. But around the age of 12 that changed. I became less interested in the biological world and more into the physical world (geology, physics, chemistry, etc.). I stopped fishing and haven’t picked up a pole in over 35 years. Even when I was into fishing as a kid, I still didn’t like touching them. Now I will be spending 3 weeks studying Alaska pollock (walleye pollock) off the coast of Alaska. As a result of this experience, I wonder if the girl in this photo will rise like a phoenix and fall back in love with fishing. Hmm – at the moment I’m thinking it’s a 50-50 chance! What do you think? Leave me a message in the comments below.

Did You Know?

The word fish (noun) has an old English connection meaning any animal living exclusively in water. (Source: Online Etymology Dictionary)

Hi! My name is Virginia Warren. I teach 5th Grade math and science at Breitling Elementary School in Grand Bay, Alabama. I have been a teacher for 6 years. I am currently in the process of going back to graduate school at the University of South Alabama to get my Master’s Degree in Instructional Design and Development.

I am set to fly out of Pensacola, Florida this coming Thursday morning. I will have a short layover at the Dallas Fort Worth Airport in Texas.Then, I will be off again to Seattle, Washington where I will stay the night before finishing my journey the next day. I am excited about getting to spend even a short amount of time in Seattle because I have never been on the West Coast of the United States. I plan to get as much sight seeing in as possible before my flight to Anchorage, Alaska the next morning. Once I get to Anchorage, I will catch another plane to Kodiak, Alaska where I will rendezvous with the rest of the science crew and the NOAA Ship Oscar Dyson on Saturday.

This image is created from http://flightdiary.net/ and it depicts the flights that I will take to get to Kodiak, Alaska.

This will be my second NOAA Teacher at Sea opportunity. In the summer of 2013 I participated in a sea scallop survey on the Research Vessel Hugh R. Sharp. As a teacher this experience has become invaluable to me because it made scientific research come alive to me in way that I had never been able to express to my students prior to this experience. I am extremely excited about having a second opportunity to travel the world and learn about real data research. I am also excited to be able to share this trip with my 5th grade students back home in Grand Bay, Alabama.

This picture is from my first NOAA Teacher at Sea research cruise in 2013 aboard the R/V Hugh R. Sharp

I will spend about 2 weeks aboard the NOAA Ship Oscar Dyson participating in an acoustic-trawl survey to estimate pollock abundance in Shelikof Strait.

Mission: Walleye Pollock SurveyGeographical area of cruise: Gulf of AlaskaDate: July 21, 2015

Weather Data from the Bridge:Latitude: 57 09.0N
Longitude: 151 16.5W

Sky:broken clouds

Visibility: 10nm
Wind Direction: 245 degrees

Wind Speed: 24 knots
Sea wave height: 3ft

Swell wave: 5-7 ft

Sea water temp: 11.3 C
Dry temperature: 11.1 C

Birds are always abundant after a trawl

Sunset from the ship

Science and Technology Log

Aside from our survey, there is a lot of other science taking place on the ship. In fact, science is all around us. The officers on the bridge are using science when they use weather patterns and sea swells to calculate the best course of navigation for the ship. The survey technicians are using science when they collect water samples each day and test the salinity of the water. The engineers are using science when they are monitoring the ballast of the ship. Science is happening in places we don’t always take the time to look.

Today we look at a different realm of science, the engineering world. I recently had the opportunity to tour the brains of the ship with two of our engineers on board. I not only learned about the construction of the ship, but I also learned about the various components that help the ship run. The Oscar Dyson was constructed as one of NOAA’s first noise-reduced fisheries vessels. Data have been collected over the years that show fish avoid loud vessels by diving down deeper or moving out of the way of the noise. There was concern that this avoidance behavior would affect the survey results; thus the creation of acoustic quieting technology for research vessels. Another interesting part of the ship’s construction is the retractable centerboard, which allow the transducers to be lowered down below the ship and away from the hull in order to reduce noise and gather higher quality sound data for the surveys.

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It turns out 2 of our engineers are from San Diego, the place I lived for my first 21 years of life. Nick even graduated from Westview High School, the rival of my high school, Mt. Carmel (albeit 10 years after me). The engineers are responsible for making sure everything is working on the ship. They, along with the rest of the engineering team, have to anticipate and troubleshoot problems, and be ready to fix something at a moment’s notice.

In addition to taking me on a tour around the innards of the ship, Nick and Rob also sat down for an interview about marine engineering.

Interview with the Engineers: Rob Ball and Nick Cuellar

Nick, Rob, and….Wilson!

What is your educational/working background?

Nick: I played soccer throughout high school and was recruited during my senior year by the US Merchant Marine Academy. I went to school there, played soccer, and received a BS degree in marine engineering. I spent 1 of my 4 years at sea doing hands-on training. I was also commissioned into the US Navy as a reservist.

Rob: I’m what they call a hawespiper in the merchant marine world- I started at the bottom and worked my way up. I started at Scripps Institute of Oceanography in 1988 and worked my way up ranks from oiler to engineer. I received my captain’s license, and ran sport fishing boats because I wanted to know boats from top to bottom. I went to professional college for refrigeration, and my main forte is refrigeration and air conditioning, I know I’ll never be out of work. I’m a first engineer now, and am going to go for my chief’s license.

How long have you been working on the Oscar Dyson?

Nick: I came on in August of 2014.

Rob: I just came on board in April of 2015

What are your main responsibilities as an engineer on board?

Nick: As a second engineer, I give fuel reports and transfer fuel to maintain stability of the ship. We have saltwater tanks for ballast, which changes as we burn fuel, and I help monitor this. I check the electricity, lights, fuel, water, and AC and make sure everything’s running. I fix anything that’s breaking.

Rob: As a first engineer, I am the supervisor of engine room and am responsible for how everything is operating. I get updates on the fuel status, and communicate with CO of the ship if changes need to be made. I also look at when the oil/filter needs to be changed. My position is more supervisory, and I oversee responsibilities and delegate tasks. I handle the plant and the people.

What is your favorite part of the job?

Nick: Travel; getting work experience, marine life

Rob: Money and travel; getting to see things in ocean that most people would only see on National Geographic

What is most challenging about your job?

Nick: The different personalities you have to work with

Rob: I agree with Nick. Our life exists in 204ft. I am able to take frustrations and put it into things I enjoy, such as working out, reading, or playing guitar.

What is something unique to being an engineer on a ship as opposed to an engineer on land?

Nick: You have to have knowledge of every square inch of the ship; the two things I think about are: are we sinking and are the lights on.

Rob: You have to keep things going when you have big seas, and you have to have the knowledge and ability to handle problems and stay on your feet (literally). You have everyone’s lives in your hands- you have to be on all the time.

What would tell students who are looking at careers in engineering?

Nick: Don’t give up and keep on fighting. Don’t let hardships get in the way. If it makes you happy, keep doing it. And know your math!

Rob: it’s a limitless field; you can build anything, and fix anything. If someone else made it, you’ll have the ability to figure out what they did. You get to break stuff and fix it.

What is your favorite marine animal?

Nick: Humpback whale

Rob: Orca and Great white shark

Rob, Nick and I

Thanks gentlemen for the interview!

Looked like the pipes needed a little fixing….

Welding is more difficult than it looks.

Drew helping me hold the rod for welding.

Look! I’m learning how to weld.

Drew is helping me weld

My welding masterpiece

Messing around in the engine room.

Running the lathe

Personal Log

This baby humpback whale was having a blast breaching over and over again.

The ringing of the phone woke me up from the gentle rolling of the ship. I had told the officers and scientists to wake me up if there was anything cool happening, and an excited ENS Gilman spoke into the receiver claiming there were hundreds (ok, maybe hundreds was a bit of an exaggeration) of whales breaching and swimming around the ship. Throwing on a sweatshirt and grabbing my camera, I raced up to the bridge to get a view of this. I had low expectations, as it seemed that every time we got the call that there were whales around, they left as soon as we got up there. This time, however, I was not disappointed. It was a whale extravaganza! Humpback whales, fin whales, orcas, there were so many whales it was hard to decide where to point my camera or binoculars. Like one of those fountains that spurt up water intermittently through different holes, the whales were blowing all around us. I was up on the bridge for over an hour, never tiring to see which one would spout next, or show us a fluke before it dove down deep, only to resurface somewhere else 15 minutes later. It was truly a treat to be able to watch them, and the weather couldn’t have been better. My favorite shot was of a baby humpback breeching – we had been tracking him for a while, his blow noticeably smaller than the adults around him. He looked as if he was just playing around in the water, enjoying himself without a worry in the world. I had been hoping to see Alaska wildlife on this trip, and am thrilled my wish was granted.

A pod of orcas was amidst the whale extravaganza!

The sight of the fluke indicates they are diving down deeper, and may not resurface again for several minutes.

So many whales!

The bathroom in our staterooms

I had a question about our living accommodations on the ship, and I must admit they aren’t too shabby. I share a room with another one of the scientists, and she works the opposite shift. This works out nicely as we can each have our own time in the room, and can sleep uninterrupted. We have bunks, or racks as many refer to them, and I am sleeping on the top bunk. We have a bathroom with a shower in our room, and it’s nice not to have to share those amenities. The walls are pretty thin, and the ship can be loud when operations are going, making earplugs or headphones helpful.